1·Why molecules and inter - molecular forces exist can be understood in terms of atoms, inter - atomic forces, and again, qm.
对于分子以及分子间作用力存在的原因,可以依据原子、原子间作用力以及量子力学。
2·As a result, n-butylamine as chain-extension agent decreases the inter action of molecular and increases the elongation of PU to 1400%.
结果表明,以正丁胺为扩链剂,可以减小聚氨酯分子间的作用力,提高分子的柔顺性,其断裂伸长率可达1400%以上;
3·Cardiac remodeling is defined as an alteration in anatomy, inter diameter and function of cardiac Chambers caused by a series of molecular and cellular events after injury to the heart.
心脏重构是指发生于心肌损伤之后的分子和细胞事件所导致的心脏各腔室形态、内径和功能改变。
4·Molecular docking is an important method in drug virtual screening, and it should be improved applying in the study of inter - action between immobilized ligand and protein.
分子对接技术是药物虚拟筛选的重要手段,将它应用到固定化配基与蛋白质相互作用的研究中需要改进。
5·Natural bond orbital analysis shows that these H-bonds can be interpreted with the theory of inter-and intra-molecular hyperconjugation and rehybridization.
自然键轨道分析表明分子内与分子间超共轭和重杂化理论可以解释这些氢键的形成机制。
6·Discusses the mechanism and harmfulness of undesired formation of butyl ether by inter-molecular dehydration of n-butanol during DBP production. Preventive measures are also provided.
着重讨论了DBP(邻苯二甲酸二丁酯)生产过程中,丁醇分子间脱水生成丁醚的副反应机理及危害,并找出了预防副反应发生的措施。
7·Authors inter-prete all experimental results of the work with the molecular mechanism of fracture behaviour of polymers and propose the mechanism of chemical stress cracking of PET-methylamine system.
作者从高聚物断裂的微观机理解释了所有实验结果并提出PET -甲胺系统化学应力开裂机理。
8·Proton acids doping caused the inter-molecular and inner-molecular delocalization in PAN and improved the conductivity.
这是因为质子酸的掺杂使聚苯胺分子内及分子间的电荷离域化增强,电导率大幅度提高。
9·Problems like difficulty for epoxy firming agent of low-molecular amine to be inter-connected and firmed in water or at lower temperatures have been solved.
解决了低分子胺类环氧固化剂无法在水中、低温环境中交联固化的问题。
10·This result suggests that the activation involves some kind of inter-molecular interaction, that is, the kinases activate each other when they are brought together.
这个结果表明,激活涉及一些分子间的相互作用,也就是说,当激酶到一起时,它们相互激活。